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Stability rate of a thermoelastic laminated beam: Case of equal-wave speed and nonequal-wave speed of propagation

Soh Edwin Mukiawa, Tijani A. Apalara, Salim A. Messaoudi

2020AIMS Mathematics20 citationsDOIOpen Access PDF

Abstract

In this article, we investigate a one-dimensional thermoelastic laminated beam system with viscoelastic dissipation on the effective rotation angle and through heat conduction in the interfacial slip equations. Under general conditions on the relaxation function and the relationship between the coefficients of the wave propagation speed of the first two equations, we show that the solution energy has an explicit and general decay rate from which the exponential and polynomial stability are just particular cases. Moreover, we establish a weaker decay result in the case of non-equal wave of speed propagation and give some examples to illustrate our results. This new result improves substantially many other results in the literature.

Topics & Concepts

Thermoelastic dampingDissipationViscoelasticityThermal conductionMechanicsPhysicsWave propagationWave equationRelaxation (psychology)Exponential decayBeam (structure)Classical mechanicsMathematical analysisSlip (aerodynamics)MathematicsThermalThermodynamicsOpticsNuclear physicsPsychologySocial psychologyAdvanced Mathematical Modeling in EngineeringStability and Controllability of Differential EquationsElasticity and Material Modeling
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